The rising global demand for solutions to enhance building energy efficiency is driven by
increased cooling and heating needs in the construction sector. Addressing energy crises …

Latent heat energy storage is among the highly effective and dependable methods for
lowering one's energy usage. This method involves employing phase change materials …

Fiber‐reinforced composites have emerged as versatile materials with applications
spanning diverse industries, driven by their exceptional mechanical properties and …

To utilize historic buildings sustainably, the energy performance of the building must be
improved through retrofit. To preserve the historical value of the target building, the range of …

This work focuses on the valorization of sawdust waste in order to develop a new bio-
sourced insulation material. To assess the dynamic thermal behavior of a multi-layer …

This study investigates the properties of novel heat storage gypsum composites composed
of waste Hemihydrate phosphogypsum (HP) incorporated with Ethyl Palmitate (EP) Phase …

This study addresses the rising demand for sustainable construction by introducing
composite materials from natural and renewable resources: gypsum, hemp, and phase …

In recent years intensive research has been conducted on phase change materials (PCMs)
for both energy storage and thermal regulation of equipment and buildings. However, a …

Flax fiber modified composite (FFMC) duplex systems with unique sorbent and antipathogen
properties were developed by physisorption of chitosan onto modified flax fibers by a facile …

To reduce building energy consumption, the indoor temperature must be maintained
constant. To achieve this, thermal storage performance of indoor finishing materials must be …